专家对未来轨迹的见解:评估二氧化碳去除技术的成本降低和可扩展性

IF 3.3 Q2 ENVIRONMENTAL SCIENCES
Manon Abegg, Z. Clulow, Lucrezia Nava, David M. Reiner
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引用次数: 0

摘要

为了实现净零排放目标,必须对二氧化碳直接空气捕集与封存(DACCS)和生物能源碳捕集与封存(BECCS)等新兴二氧化碳去除技术的成本和可扩展性进行评估和建模。然而,由于对这些技术的气候影响和潜在贡献的评估不一,这些工作往往受到阻碍。本研究探讨了 DACCS 和 BECCS 的未来成本和可扩展性,以推进净零目标。我们分析了专家对这些技术的潜在成本和 2030、2040 和 2050 年部署规模的意见。我们收集了 34 位专家的数据,其中包括 21 位 DACCS 专家和 13 位 BECCS 专家。他们提供了两种国际能源机构(IEA)政策情景--既定政策(STEPS)和2050年净零排放(NZE)--下未来成本和部署的90%置信区间估计值和 "最佳估计值"。我们发现,BECCS的成本起点较低,但下降速度较慢,而DACCS的成本则从较高的初始成本开始急剧下降。然而,不同专家对 DACCS 的估算差异很大,随着时间的推移没有出现趋同。关于潜在的可扩展性,在 NZE 情景下,两种技术的部署量都大幅增加。本研究为DACCS和BECCS技术在欧洲的未来发展提供了有价值的见解,尤其是我们的专家预计DACCS和BECCS的成本将比IEA最近的追踪调查所预测的更高(部署规模更低),这为未来的研究指明了方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Expert insights into future trajectories: assessing cost reductions and scalability of carbon dioxide removal technologies
To achieve net-zero targets, it is essential to evaluate and model the costs and scalability of emerging carbon dioxide removal technologies like direct air capture with CO2 storage (DACCS) and bioenergy with carbon capture and storage (BECCS). Yet such efforts are often impeded by varying assessments of the climate impact and potential contributions of these technologies. This study explores the future costs and scalability of DACCS and BECCS to advance net-zero goals.We analyze expert opinions on these technologies’ potential costs and deployment scales for 2030, 2040, and 2050. Data was collected from 34 experts, comprising 21 DACCS and 13 BECCS specialists. They provided 90% confidence interval estimates and ‘best estimates’ for future costs and deployment under two International Energy Agency (IEA) policy scenarios—Stated Policies (STEPS) and Net Zero Emissions by 2050 (NZE).We find that BECCS costs start at a lower level but decrease more slowly, whereas DACCS costs decline more steeply from a higher initial cost. However, DACCS estimates varied significantly among experts, showing no convergence over time. Regarding potential scalability, both technologies are associated with substantially higher deployment under the NZE scenario. Yet the combined estimated capacity of DACCS and BECCS by 2050 is only about a quarter of the CO2 removals projected by the IEA for its NZE scenario (1.9 GtCO2).This study provides valuable insights into the future of DACCS and BECCS technologies in Europe, especially since our experts expect that DACCS and BECCS costs will be even higher (and deployment scales lower) than those predicted by recent IEA tracking, opening future research directions.
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来源期刊
Frontiers in Climate
Frontiers in Climate Environmental Science-Environmental Science (miscellaneous)
CiteScore
4.50
自引率
0.00%
发文量
233
审稿时长
15 weeks
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